CN211542184U - Buckle die for safety belt - Google Patents

Abstract

The utility model discloses a safety belt buckle mould, which comprises a left mould and a right mould, wherein the right mould is provided with an injection opening, the left die is provided with a left die cavity, the right die is provided with a right die cavity, the left die cavity comprises a braid connecting hole bulge A, a braid connecting hole die groove A, a socket connecting hole bulge A and a socket connecting hole die groove A, the right die cavity comprises a braid connecting hole bulge B, a braid connecting hole die groove B, a socket connecting hole bulge B and a socket connecting hole die groove B, the four corners of the mesh belt connecting hole bulge A and the four corners of the mesh belt connecting hole bulge B are arc-shaped corners, the left end surface of the mesh belt connecting hole mold groove A is connected with the side end surface of the mesh belt connecting hole mold groove A through an arc-shaped angle, the side end face of the mesh belt connecting hole mold groove B is connected with the right end face of the mesh belt connecting hole mold groove B through an arc-shaped angle.

Description

Buckle die for safety belt

Technical Field

The utility model relates to an auto-parts forming die technical field, concretely relates to buckle mould of safety belt.

Background

The safety belt connecting buckle is an important component of an automobile safety belt and is a bridge for connecting a safety standby woven belt and a safety belt buckle seat. The belt buckle includes a webbing attachment aperture and a socket attachment aperture. When the preparation, generally adopt the mould preparation safety belt connector link, but when the preparation, because be the mould preparation, the edge of the hole of meshbelt connecting hole is the right angle, like this, when connecting the meshbelt safety belt, can be because long-time friction meshbelt, and the phenomenon of the chronic cutting meshbelt appears, and then cuts off the meshbelt, just so has very big potential safety hazard.

Disclosure of Invention

In view of the above-described drawbacks or deficiencies in the prior art, it would be desirable to provide a buckle mold.

According to the technical scheme provided by the embodiment of the application, the safety belt buckle mold comprises a left mold and a right mold, wherein an injection opening is arranged on the right mold, the injection opening is a cylindrical hole, the injection opening is positioned on the upper end surface of the right mold, a left mold cavity is arranged on the left mold, a right mold cavity is arranged on the right mold, the left mold cavity is positioned on the right end surface of the left mold, the right mold cavity is positioned on the left end surface of the right mold,

the left die cavity comprises a braid connecting hole bulge A, a braid connecting hole die groove A, an inserting opening connecting hole bulge A and an inserting opening connecting hole die groove A,

the right die cavity comprises a braid connecting hole bulge B, a braid connecting hole die groove B, a socket connecting hole bulge B and a socket connecting hole die groove B,

the mesh belt connecting hole protrusion A and the mesh belt connecting hole mold groove A are positioned at the upper end part of the left mold cavity, the socket connecting hole protrusion A and the socket connecting hole mold groove A are positioned at the lower end part of the left mold cavity, the mesh belt connecting hole protrusion A is positioned in the mesh belt connecting hole mold groove A, the socket connecting hole protrusion A is positioned in the socket connecting hole mold groove A, the right end face of the mesh belt connecting hole protrusion A and the right end face of the left mold are positioned on the same vertical face, the right end face of the mesh belt connecting hole protrusion A and the right end face of the socket connecting hole protrusion A are positioned on the same vertical face, the mesh belt connecting hole mold groove A is communicated with the socket connecting hole mold groove A,

the braid connecting hole protrusion B and the braid connecting hole mold groove B are positioned at the upper end part of the right mold cavity, the socket connecting hole protrusion B and the socket connecting hole mold groove B are positioned at the lower end part of the right mold cavity, the braid connecting hole protrusion B is positioned in the braid connecting hole mold groove B, the socket connecting hole protrusion B is positioned in the socket connecting hole mold groove B, the left end surface of the braid connecting hole protrusion B and the left end surface of the right mold are positioned on the same vertical surface, the left end surface of the braid connecting hole protrusion B is positioned on the left end surface of the socket connecting hole protrusion B and is positioned on the same vertical surface, and the filling opening, the braid connecting hole mold groove B and the socket connecting hole mold groove B are communicated,

four corners of the mesh belt connecting hole protrusion A and four corners of the mesh belt connecting hole protrusion B are arc corners, the left end face of the mesh belt connecting hole mold groove A is connected with the side end face of the mesh belt connecting hole mold groove A through the arc corners, and the side end face of the mesh belt connecting hole mold groove B is connected with the right end face of the mesh belt connecting hole mold groove B through the arc corners.

The utility model discloses in, the length of left side mould with the length of right side mould is the same, the width of left side mould with the width of right side mould is the same.

The utility model discloses in, the protruding A of meshbelt connecting hole with the protruding B of meshbelt connecting hole is the same, the protruding A of meshbelt connecting hole with the protruding B's of meshbelt connecting hole position corresponds.

The utility model discloses in, meshbelt connecting hole mould groove A with meshbelt connecting hole mould groove B is the same, meshbelt connecting hole mould groove A with meshbelt connecting hole mould groove B's position corresponds.

The utility model discloses in, the protruding A of socket connecting hole with the protruding B of socket connecting hole is the same, the protruding A of socket connecting hole with the position of the protruding B of socket connecting hole corresponds.

The utility model discloses in, socket connecting hole mould groove A with socket connecting hole mould groove B is the same, socket connecting hole mould groove A with socket connecting hole mould groove B's position corresponds.

To sum up, the beneficial effect of this application: the hole turning of the meshbelt connecting hole of the shaping product of this application device preparation is the arc angle, can not appear the phenomenon of cutting the meshbelt, can prolong the life of meshbelt, prevents that the meshbelt fracture from appearing.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a schematic perspective view of the overall device of the present invention;

fig. 2 is a schematic perspective view of the left mold of the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the right mold of the present invention.

Reference numbers in the figures: a left mold-1; a right mold-2; injection port-2.1; a left mold cavity-3; the braid connecting hole bulge A-3.1; a mesh belt connecting hole mold groove A-3.2; a plug jack connecting hole bulge A-3.3; a spigot connection hole mold groove A-3.4; right mold cavity-4; the braid connecting hole bulge B-4.1; a mesh belt connecting hole mold groove B-4.2; a spigot connecting hole bulge B-4.3; and (4) a spigot connecting hole die groove B-4.4.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1, the seat belt buckle mold comprises a left mold 1 and a right mold 2, wherein an injection port 2.1 is arranged on the right mold 2, the injection port 2.1 is a cylindrical hole, the injection port 2.1 is positioned on the upper end surface of the right mold 2, a left mold cavity 3 is arranged on the left mold 1, a right mold cavity 4 is arranged on the right mold 2, the left mold cavity 3 is positioned on the right end surface of the left mold 1, the right mold cavity 4 is positioned on the left end surface of the right mold 2, the length of the left mold 1 is the same as that of the right mold 2, and the width of the left mold 1 is the same as that of the right mold 2. The mesh belt connecting hole bulge A3.1 is the same as the mesh belt connecting hole bulge B4.1, and the position of the mesh belt connecting hole bulge A3.1 corresponds to the position of the mesh belt connecting hole bulge B4.1. The mesh belt connecting hole mold groove A3.2 is the same as the mesh belt connecting hole mold groove B4.2, and the mesh belt connecting hole mold groove A3.2 corresponds to the mesh belt connecting hole mold groove B4.2 in position. Socket connecting hole arch A3.3 with socket connecting hole arch B4.3 is the same, socket connecting hole arch A3.3 with socket connecting hole arch B4.3's position corresponds. Socket connecting hole mould groove A3.4 with socket connecting hole mould groove B4.4 is the same, socket connecting hole mould groove A3.4 with socket connecting hole mould groove B4.4's position corresponds.

As shown in fig. 2, the left mold cavity 3 includes a webbing connecting hole protrusion a3.1, a webbing connecting hole mold groove a3.2, a socket connecting hole protrusion a3.3, and a socket connecting hole mold groove a3.4, the webbing connecting hole protrusion a3.1 and the webbing connecting hole mold groove a3.2 are located at an upper end portion of the left mold cavity 3, the socket connecting hole protrusion a3.3 and the socket connecting hole mold groove a3.4 are located at a lower end portion of the left mold cavity 3, the webbing connecting hole protrusion a3.1 is located in the webbing connecting hole mold groove a3.2, the socket connecting hole protrusion a3.3 is located in the socket connecting hole mold groove a3.4, a right end surface of the webbing connecting hole protrusion a3.1 and a right end surface of the left mold 1 are located on the same vertical surface, a right end surface of the webbing connecting hole protrusion a3.1 and a right end surface of the connecting hole protrusion a3.3 are located on the same vertical surface, the webbing mold groove a3.2 and the socket connecting hole mold groove a3.4 are communicated, four corners of the mesh belt connecting hole bulge A3.1 and four corners of the mesh belt connecting hole bulge B4.1 are arc-shaped corners, and the left end face of the mesh belt connecting hole mold groove A3.2 is connected with the side end face of the mesh belt connecting hole mold groove A3.2 through the arc-shaped corners.

As shown in fig. 3, the right mold cavity 4 includes a webbing connection hole protrusion B4.1, a webbing connection hole mold groove B4.2, a socket connection hole protrusion B4.3, and a socket connection hole mold groove B4.4, the webbing connection hole protrusion B4.1 and the webbing connection hole mold groove B4.2 are located at the upper end portion of the right mold cavity 4, the socket connection hole protrusion B4.3 and the socket connection hole mold groove B4.4 are located at the lower end portion of the right mold cavity 4, the webbing connection hole protrusion B4.1 is located in the webbing connection hole mold groove B4.2, the socket connection hole protrusion B4.3 is located in the socket connection hole mold groove B4.4, the left end face of the webbing connection hole protrusion B4.1 and the left end face of the right mold 2 are located on the same vertical face, the left end face of the webbing connection hole protrusion B4.1 is located on the left end face of the socket connection hole protrusion B4.3, the injection port 2.1, the injection port, The mesh belt connecting hole mold groove B4.2 and the socket connecting hole mold groove B4.4 are communicated, and the side end face of the mesh belt connecting hole mold groove B4.2 is connected with the right end face of the mesh belt connecting hole mold groove B4.2 through an arc-shaped angle.

Example 1: the protruding A3.1 of meshbelt connecting hole protruding A3.3 of socket connecting hole with 1 formula structure as an organic whole of left mould, the protruding B4.1 of meshbelt connecting hole protruding B4.3 of socket connecting hole with 2 formula structures as an organic whole of right mould.

Example 2: when in use, the left mold 1 and the right mold 2 are placed according to the figure 1, liquid in a molten state flows in from one of the injection ports 2.1, then the liquid flows out from the other injection port 2.1, the molding is finished, then the molded product is cooled, and the molded product can be taken out,

the foregoing description is only exemplary of the preferred embodiments of the application and is provided for the purpose of illustrating the general principles of the technology and the like. Meanwhile, the scope of the invention according to the present application is not limited to the technical solutions in which the above-described technical features are combined in a specific manner, and also covers other technical solutions in which the above-described technical features or their equivalent are combined arbitrarily without departing from the inventive concept described above. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (6)

1. Buckle mould, including left mould (1), right mould (2), be equipped with injection opening (2.1) on right mould (2), injection opening (2.1) are the cylinder hole, injection opening (2.1) are located on the up end of right side mould (2), be equipped with left mould chamber (3) on left side mould (1), be equipped with right mould chamber (4) on right side mould (2), left side mould chamber (3) are located the right-hand member face of left side mould (1), right side mould chamber (4) are located the left end face of right side mould (2), characterized by:

the left die cavity (3) comprises a braid connecting hole bulge A (3.1), a braid connecting hole die groove A (3.2), a socket connecting hole bulge A (3.3) and a socket connecting hole die groove A (3.4),

the right die cavity (4) comprises a braid connecting hole bulge B (4.1), a braid connecting hole die groove B (4.2), a socket connecting hole bulge B (4.3) and a socket connecting hole die groove B (4.4),

the mesh belt connecting hole bulge A (3.1) and the mesh belt connecting hole mold groove A (3.2) are located at the upper end part of the left mold cavity (3), the socket connecting hole bulge A (3.3) and the socket connecting hole mold groove A (3.4) are located at the lower end part of the left mold cavity (3), the mesh belt connecting hole bulge A (3.1) is located in the mesh belt connecting hole mold groove A (3.2), the socket connecting hole bulge A (3.3) is located in the socket connecting hole mold groove A (3.4), the right end face of the mesh belt connecting hole bulge A (3.1) and the right end face of the left mold (1) are located on the same vertical face, the right end face of the mesh belt bulge A (3.1) and the right end face of the socket connecting hole bulge A (3.3) are located on the same vertical face, the mesh belt connecting hole mold groove A (3.2) and the connecting hole mold groove A (3.4) are communicated,

the protruding B of meshbelt connecting hole (4.1) with meshbelt connecting hole mould groove B (4.2) are located the upper end position of right side mould chamber (4), the protruding B of socket connecting hole (4.3) with socket connecting hole mould groove B (4.4) are located the lower extreme position of right side mould chamber (4), the protruding B of meshbelt connecting hole (4.1) are located in meshbelt connecting hole mould groove B (4.2), the protruding B of socket connecting hole (4.3) are located in socket connecting hole mould groove B (4.4), the left end face of the protruding B of meshbelt connecting hole (4.1) with the left end face of right side mould (2) is located same vertical face, the left end face of the protruding B of meshbelt connecting hole (4.1) is located the left end face of the protruding B of socket connecting hole (4.3) is located same vertical face, filling opening (2.1), meshbelt connecting hole mould groove B (4.2), The spigot connecting hole die grooves B (4.4) are communicated,

four corners of the protruding A (3.1) of the mesh belt connecting hole, four corners of the protruding B (4.1) of the mesh belt connecting hole are arc corners, the left end face of the die groove A (3.2) of the mesh belt connecting hole is connected with the side end face of the die groove A (3.2) of the mesh belt connecting hole through the arc corners, and the side end face of the die groove B (4.2) of the mesh belt connecting hole is connected with the right end face of the die groove B (4.2) of the mesh belt connecting hole through the arc corners.

2. The mold for a seat belt buckle according to claim 1, wherein: the length of the left die (1) is the same as that of the right die (2), and the width of the left die (1) is the same as that of the right die (2).

3. The mold for a seat belt buckle according to claim 1, wherein: the mesh belt connecting hole bulge A (3.1) is the same as the mesh belt connecting hole bulge B (4.1), and the position of the mesh belt connecting hole bulge A (3.1) corresponds to that of the mesh belt connecting hole bulge B (4.1).

4. The mold for a seat belt buckle according to claim 1, wherein: the mesh belt connecting hole mold groove A (3.2) is the same as the mesh belt connecting hole mold groove B (4.2), and the mesh belt connecting hole mold groove A (3.2) corresponds to the mesh belt connecting hole mold groove B (4.2).

5. The mold for a seat belt buckle according to claim 1, wherein: the protruding A (3.3) of socket connecting hole with the protruding B (4.3) of socket connecting hole is the same, the protruding A (3.3) of socket connecting hole with the position of the protruding B (4.3) of socket connecting hole corresponds.

6. The mold for a seat belt buckle according to claim 1, wherein: socket connecting hole mould groove A (3.4) with socket connecting hole mould groove B (4.4) are the same, socket connecting hole mould groove A (3.4) with the position of socket connecting hole mould groove B (4.4) corresponds.

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